ganger



March' 31, 1942. .1. R. GANGER ACCOUNTING HACHINE Filed oct. 5, 193s 7 sheets-sheet 1 VERT Flaz'w ANYBANK TRUST C0.

WHERE March 3l, 1942. J. R. GANGER ACCOUNTING MACHINE I 7 Sheets-Sheet 2 Filed Oct. 5, 1956 @mz/M His (Ittom'eg March 31, 1942. J. R GANGER 2,277,851

ACCOUNTING MACHINE Filed oct. 5, 1956 fr sheets-sheet s r\ l v mw Y y mw Y t .l mmv March 31, 1942- J. R. GANGER ACCOUNTING MACHINE Filed Oct. 5, 1936 7 Sheets-Sheet 4 gwoon/Hoc eue R. Ganger Mardi 3l, 1942- Y J. R. GANGER 2,277,851

` ACCOUNTING MACHINE Filed Oct. 5, 1936 7 Sheets-Sheet 5 367 383 3587 /59 322 az/ Y o 515 366 374 309 312 laY His Gttorng March 3l, 1942. J. R. GANGER 2,277,851

ACCOUNTING MACHINE Filed Oct. 5, 1936 7 Sheets-Sheetl 6 His (Ittomcg March 31, 1942. J. R. GANGER ACCOUNTING MACHINE Filed oct. 5, 1956 HansaV '7 Slleets-Sheetl 7 FIG. 2O

nbentor eue R. Ganzer BWM Hlttorneg Patented Mar. 31, 17942 nutren STATES baratti ortica y2,277,851 ACCOUNTING MACHNE Jesse R. Ganger, Dayton, Ohio, assigner to 'Elie National Cash Register Company, Dayton, Ohio, a corporation of Maryland Application October 5, 1936, Serial No. 104,001

2s claims. (ci. zas-so) This invention relates to bookkeeping or ac-` counting machines and the like, and is. particularly directed to the keyboard mechanisms of machines of the type illustrated and described in Letters Patent of the United States No. 1,197,- 278 and No. 1,203,863, issued respectively September 5, 1916, and November rI, 1916, to Halcolm Ellis, and Patent No. 1,819,084, issued August 18, 1931, to Emil John Ens. l

The present invention is shown embodied in the well known Ellis type of accounting machine illustrated and described in the above patents and in its present form is known as a-bank service machine, used for the balancing of individual checking accounts. However, it is not the desire to restrict or limit the use of this invention to the Ellis type of machine, as it may easily be adapted for use on various other types of machines. Neither is it the desire to limit this invention to bank service machines orto any particular business system, as the ilexibility of said machine and the numerous features thereof admirably adapt it for the handling of practically any accounting problem in connection with present-day business systems.

In certain business systems it is often desirable to keep a count of certain items as they are listed. The balancing of individual checking accounts by banks is a good example. In this case a count of the checks drawn against the individual account .1

is often kept for tax purposes, bookkeeping charges, or the like. It is therefore broadly an object of this invention to provide means to count the number of certain. items of a transaction as the transactions are listed individually or collectively.

Another object of this invention is the provision of an item counting device, and means to automatically count single items thereon as they are listed in a separate accumulator. Said means may also be manually controlled to count one or a plurality of items when said items are entered singly or collectively.

A further object is the provision of means to automatically count a single item during each machine operation, said means also capable of being manually controlled to count one or more items during each machine operation.

Still another object is to supply means to automatically count 1 for each' debit item as the amount of said item is deducted from a certain balanc, and to provide key controlled means to disable the automatic counting means and to count one or more debit items when the total of said one or more items is deducted from a certain balance.

Another object is to provide means to render the operation of the automatic counting means dependent upon the depression of one or more amount keys and upon the selecting and conditioning -of the balance totalizer for a subtract operation.

A still further object is to supply means to render the operation of the automatic and the key controlled item counting means dependent upon the selection and the conditioning of the balance ytotalizer for a subtract operation.

Another object is to furnish means to count in one totalizer and subtract simultaneously from anothery totalizer, said two totalizers being mounted on a common axis.

Still another object is to supply means to count in one totalizer while subtraction is being performed in another totalizer, both of said totalizers being on a common axis, and to perform total taking operations in both totalizers at the same time.

A further object is the provision of means to count in one totalizer and subtract simultaneously from another totalizer, said two totalizers being mounted on a common axle, and both totalizers being engaged with and disengaged from their actuators in subtract time.

Another object is to count in one totalizer by subtracting the complement of the amounts Ato be counted, while subtraction is being performed in another totalizer on the same axle.

Another object is to provide two totalizers on a single line operable to control printing during overdraft operations, and to provide means to control one of said totalizers to prevent that totalizer from operating to exert its control during preliminary transporting cycles of an overdraft operation.

Another object is the provision of means whereby conditioning of the machine for an overdraft operation renders the item counting device inoperative for the accumulation of items.

With these and incidental objects in view, the invention includes certain novel features of construction and combinations of parts, the essential elements of which Aare set forth 'in appended claims, and a preferred form or embodiment of which is hereinafter described with reference to the drawings which accompany and form a part of this specification.

In the'drawings:

Fig. -1 is a diagrammatic plan'view of the keyboard of the machine of the instant invention.

Fig. 2 is a facsimile of a fragment of a ledger sheet prepared in the machine of the present invention.

Fig. 3 is a longitudinal sectional view taken just to the right of one of the amount banks, showing in particular the actuator mechanism for said amount bank.

Fig. 4 is a detail view of the row of amount keys shown in Fig. 3, showing the manner in which these keys are assembled to their order plate.

Fig. 5 is a. longitudinal sectional view taken just to the right of one of the item counting banks, illustrating the main and auxiliary actuators for this particular bank.

Fig. 6 is a detail view of the item counting keys shown in Fig. 5, illustrating the manner in which these keys are assembled to their order plate.

Fig. 7 is a perspective view of the amount and check counting actuators, the row of control keys,

and the machine starting mechanism. In a perspective view such as this, where the dot and dash lines of the framework show in front or on top of other parts, it indicates that such parts are in back of the framework.

Fig. 7-A is a detail view of part of the mechanism for controlling the item counting device in overdraft operations.

Fig. 8 is a detail view, as observed from the right of the machine, of the key releasing mechanism.

Fig. 9 is a detail view of the mechanism that locks the keys against depression or release during machine operations.

Fig. 10 is a side elevation, as observed from the right of the'machine, of the starting mechanism.

Fig. 11 is a detail view of the overdraft key.

Figs. 12 and `13 are respectively fragmentary detail views of the main and auxiliary actuators for the second and thirdrows of item counting keys, and a part of their latch mechanisms.

Fig. 14 is a side elevation as observed from the right, illustrating the machine operating mechanism and the manner in which the overdraft key controls the item counting actuators.

Fig. 15 is a disassembled perspective view of the latch mechanism for the actuators for the three rows of item counting keys.

Figs. 16, 17 and 18 are respectively fragmentary detail views of the first, second and third rows of item counting keys, illustrating the latch mechanism for the main actuators for said rows of keys.

Fig. 19 is a side elevation showing the mechanism for controlling the operation of the actuators for the item'counting banks, and the balance totalizer selecting and engaging mechanism.

Fig. 20 is a front view of a part of the mechanism shown in Fig. 19.

Fig. 21 is a perspective view showing in detail the controlling arms for the mechanism pictured in Figs. 19 and 20.

GENERAL DescaririoN The machine embodying the instant invention is of the well known Ellis type and is provided with a traveling carriage similar to that used on typewriters, which may be automatically or manually tabulated from right to left during machine operations and which may be automatically returned from tabulated positions to starting posi' tion or to certain predetermined intermediate positions.- Mechanism is also provided for skip tabulating the traveling carriage to predetermined columns.

The present machine has a plurality of rows of denominational amount keys, which when depressed control the positioning of their respective actuators commensurate with the value thereof, and said actuators in turn position their respective printing sectors or type carriers in accordance with the depressed amount keys and enter the amount in the selected totalizer or totalizers. The totalizers of the present machine are arranged in vertical pairs at the rear of the machine, and these totalizers include a balance totalizer in which positive or negative amounts may be entered, and one or more adding totalizers. The different totalizers are selected for addition, and the balance totalizer is selected for subtraction, bymeans of hanging bar levers in cooperation with stops mounted upon the traveling carriage in columnar positions thereof. The other functions of the machine, including non-add, subtotal and total operations, are controlled by means of a row of control keys located on thc extreme left of the keyboard.

The machine embodying the present invention is provided with an overdraft mechanism for transposing the complementary amount of an overdraft into a, true 'negative amount and printing this true negative amount upon record material wound around the platen roll. This machine is also supplied with an auxiliary keyboard lo cated in front of the regular keyboard, which supports a plurality of date keys, a plurality of symbol keys, and a key for controlling the inking ribbon in subtract operations.

The present machine is provided with an item counting device, which'is arranged to automatically count debit items one at a time as they are subtracted from the balance totalizer. The item counting device has three denominational order wheels similar to the balance totalizer wheels and they are mounted upon the same shaft as said balance totalizer wheels. Other than being upon the same shaft, the wheels of the item counting device have no structural connection whatever with the balance totalizer Wheels. Amounts are transferred from lower to higher denomination wheels of the item counting device by means of a transfer mechanism similar to that used on the balance totalizer, and each of these wheels has an actuator mechanism which, in addition to being automatically controlled, may also be manually controlled by means of three rows of item counting keys occupying the space generally occupied by the three higher orders of amount keys.

As illustrated herein, only debit items are counted, and as the wheels of the item counting ldevice are mounted upon the same shaft as the balance totalizer wheels, naturally these Wheels are engaged with and disengaged from their actuators in subtracting time. Therefore in order tc properly count the debit items when the balance totalizer is engaged in subtract time, it is necessary to subtract the complement of. said items from the item counting wheels. when one item is accumulated, the actuators 'reversely rotate the three item Wheels nine steps to subtract the complement (999) of one therefrom.

Before single items will be automatically counted in the item counting device, it is necessary that two conditions be fulfilled, namely, the traveling carriage must be tabulated to a subtract column, and one or more amount keys must be depressed. Sometimes it is desirable not to count certain debit items, and in this case the item counting device may be rendered inactive by pressing a control key provided for that purpose, Depressing the control key also causes a symbol to be printed adjacent the item, to indicate that Consequently,

said item was not counted by mechanism shown and described in the above-mentioned patent to Ens.

Three cycles of movement of the operating mechanism are required to .complete overdraft operations. All other operations are completed in one cycle of movement of said operating mechanism. Novel mechanism has been provided for locking the starting mechanism in effective position until the machine has operated through three cycles of movement in overdraft operations. depression of the overdraft key. In case the operator unintentionally retains any ofthe starting bars or the overdraft key depressed, at the end of machine operation, mechanism is provided to disconnect said starting bars and said overdraft key Vfrom the starting mechanism to prevent the machine from making unnecessary repeat operations.

In the following pages the mechanism pertinent to the instant invention will be described in detail.

Dar/(mao Dnscinrrioiv Framework Referring to Figs. 3, and 7, the mechanism of the machine embodying this invention is supported by a right frame 60 and a left frame 6| mounted upon a machine base 62 and rigidly maintained in proper relation to each other .by means of cross frames 63 and 64 and various other cross frames, rods and shafts. The mechanism of the machine is enclosed in a. suitable case or cabinet 65 .(Figs. 1 and 3) which is secured to the machine base 62. A traveling carriage 66, similar to that used on typewriters, is supported for lateral movement by means of ways thereon in cooperation with corresponding ways mounted upon the top of the case 65. The traveling carriage 66 rotatably supports a platen roll 61 which presents record material, wound therearound, to an inking ribbon (not shown) and a plurality of amount type sectors 68 (Fig.

3) and a plurality of check or item printing sectors 288 (Fig. 5) similar to the amount sectors 68. Keyboard and operating mechanism The framework of the main keyboard of the instant machine comprises a top plate 69, a right i and a left end plate, (not shown), a partition plate for each row ofamount keys, and a partition plate 210 for each row of item-counting This mechanism is rendered effective by keys 12, and the top plate 69 is secured to the v frames and 6|, to maintain the keyboard frame work in place.

The keys of the main keyboard include a plurality of rows of amount keys 1| (Figs. l, 3', and 5),'` three rows of item counting keys 12, a row of control keys 13, a starting bar 14, a Skip tabulating starting bar 15,` a Vertical feed starting bar 16, and an Overdraft key 11. Depressing any one of the starting bars 14, 15 or 16, causesa main shaft 18 (Fig. 14) journaled in the frames 69 and 8|, to be voperated through one cycle of movement, which is the proper movement for operating the machine in non-adding, adding, subtracting, sub-total and total operations. Depressing the Overdraft key 11 causes the main shaft v18 to operate through three cycles of movement to effect an overdraft operation. Secured on the righthand end of the shaft 18 is an arm 19 connected by a link 80 to the driven member of a clutch device (not shown), the driving member of which is operatively connected to an that set themachine in motion, is unintentionally retained depressed, restoration of the varm 94V electric motor of conventional design but preferably one of the character illustrated and deboard 8| (Fig. 3) located directly in front of the main keyboard-supporting a plurality of date Iprinting keys, .a plurality of symbol printing keys, and a key for controlling the color of the bichrome ribbon in subtract operations. The auX- iliary keyboard' is mounted upon extensions of theV base 62 and is enclosed by an extension of the cabinet 65.

Depressing the starting bar-14 (Fig. 10) rocks a lever 82 counter-clockwise on its'pivot 83, which, by means of a stud 84 in said lever, in cooperation with a bifurcated extension of a lever 85 (see also Fig. 11), loose on a shaft 86 journaled in the right frame 60 and a support plate (not shown), rocks said lever 85 clockwise. The lever 85 has a hook-shaped extension 81 and a finger 92 which embrace a bent-over ex tension 88 of a slide 89, which is slidably mounted upon an arm 90, loose on the shaft 86 by means of horizontal slots in said slide 89, in cooperation with studs 9| in said 4arms 90. Thus the lever 85 moves the slide 89 andthe arm 90.

clockwise in unison therewith to move a stud |10 y carried by said armA 90 out of engagement with a shoulder 93 of a release arm 94, loose onva stud 95 secured in the frame 60. The arm 94 upon being released is rocked counter-clockwise' After the shaft 18 has completed its one cycle of movement, the link 96 (Fig. 10) 'is automati- `cally returned rearwardly to disengage the clutch mechanism, to open the motor switch and to return the arm 94 clockwise to move the shoulder 93 beyond the stud ||0. This permits a spring 91, tensioned between the lever 85 and a -bell crank 98 fulcrumed on a stationary stud 99, to return said lever 85 counter-clockwise, and by means of a stud |00 in said bell crank 98, in cooper-ation with an extension of the arm 90, to return said arm 90 counter-clockwise in unison with the lever 85 to cause the stud ||0 to reengage the shoulder 93 to retain the arm 94 and the link 96 in untripped positions after the mechanism which restores these parts moves out of cooperative engagement therewith.

In case the starting bar 14, or any of the bars causes a projection |`0| thereof to engage a stud |02 in the slide 89 (Figs. 10 and 11), to shift said slide upwardly against the action of a spring |83 to move the bent-over ear 88 out of engagement with the hook 81 and into a clearance slot formed by said hook and the finger 92. This permits the spring 91 and the bell crank 98 to return the arm 90 independently of the lever 85 to cause the stud ||0 to engage the shoulder 93 to retain the arm 94 in untripped position to prevent a repeat operation of the machine. When, thereafter, the depressed starting bar is released, the slide 89 is again lowered to enter its flange 88 between hook 81. and finger 92.

An extension |04 of the plate that supports the starting bar 14 (Fig. 10) underlies the "Skip" tabulating starting bar 15. Consequently depression of the bar also depresses the starting bar 14 to set the machine in motion, and in addition causes the traveling carriage 56 (Fig. 3) to be skip tabulated to a predetermined columnar position in the manner shown and described in the patent to Christian, No. 2,082,098. The Vertical feed starting'bar 16 has a slot in the lower end of the stem thereof, which cooperates with a stud |05 in an extension of the lever 85. Therefore depression of the vertical feed starting bar 16 rocks the lever 85 clockwise to set the machine in motion in the manner explained above, and in addition causes the platen roll 61 (Fig. 3) to be rotated to line-space the record material wound therearound.

overdraft key and associated mechanism Depressing the Overdraft key 11 (Fig. 11) by means of a link |06, the upper end of which is pivotally connected to said Overdrait key and the lower end of which is slotted to embrace the stud |05 in the lever 85, rocks said lever 85 clockwise to set the machine in motion in the manner explained above. key 11 causes the machine starting mechanism to be locked against restoration until the machine has operated through three cycles of movement to effect an overdraft operation. This is accomplished in the following manner:

Depressing the Overdraft key 11 (Fig. 11) moves a bent-over ear |01 on the stem thereof beyond a shoulder |08 on a latch |09 loose on a stud ||5 in the main frame 60. A spring H6, one

end of which is connected to a link ||1 connecting the latch |09 to a latch releasing lever IIB, pivoted on a stud 95 (Fig, 10), urges said lever ||8 and the latch |09 clockwise to move the shoulder |08 in the path of the ear |01 to latch the Overdraft key 11 in depressed position. Clockwise movement of the lever ||8 withdraws a stud ||9 t erein from a raised surface of a pawl rotatable on the stud 99 and permits said pawl to be spring-urged counter-clockwise to move a surface |2| thereof in the path of the stud ||0, to hold said stud ||0 out of the path of the shoulder 93 upon restoration of the starting mechanism at the end of one cycle of operationy as explained earlier herein. This permits the machine to operate without interruption to perform an overdraft operation.

Near the end of the third cycle of an overdraft operation a cam |22 (Figs. l0 and 11) loose on the stud 85 and which makes one counter-clockwise revolution in overdraft operations, engages a roller |23 mounted on the lever ||8 and rocks said lever and the latch |09 counter-clockwise to disengage the shoulder |08 from the ear |01 to permit the Overdraft key 11 to be spring-returned upwardly to undepressed position. When the lobe of the cam |22 moves beyond the roller |23,; the spring ||6 returns the lever ||8 and the latch |09 clockwise until a flat surface of said latch, adjacent the shoulder |08, contacts the edge of the ear |01. This positions the pawl |20 as shown in Fig 10, so that the surface |2| is maintained out of the path of the stud ||0.

In the first two cycles of an overdraft operation the complementary amount of the overdraft is transposed to a true negative balance and during the third cycle of an overdraft operation the balance totalizer is cleared and the true negative balance is printed upon record material wound around the platen roll. This overdraft mech-.

Depressing the Overdraft r through three cycles anism is not illustrated or described in detail herein, being that shown, described, and claimed in the United States patent to Lee, No. 2,079,355, issued May 4, 1 937, on an application filed April 14, 1932. In order to prevent erroneous entries by the printing mechanism during the first two, or transposing. cycles of an overdraft operation, the printing mechanism isrendered inoperative in the following manner:

Referring to Fig. 14, the machine operating arm 19 carries a stud |24, which normally engages a notch in a link |25, the upper end of which is pivotally connected to an arm |26 flexibly connected to another arm |21 secured on a printer shaft |28 opposite ends of which are journaled in the' right frame 60, and in the framework of the printer mechanism. Oscillation of the arm 19, in the manner explained previously, by means of the link oscillates the printer shaft |28 first clockwise and back to normal position to cause the printing mechanism to function. One end of a link |29 is pivotally connected to the link |25, while the other end of said link is slotted to embrace a stud |30 in a lever |3| pivoted on the stud 95. A spring |32, tensioned between the stud |30 and the link |29, urges the link |25 clockwise to normally maintain the notch therein in engagement with the stud |24 in the arm 19. The spring |32 also urges the lever |3| clockwise to normally maintain a roller |33 carried thereby in engagement with the periphery of a plate cam |34 vintegral with the cam |22 (Fig. 10) rotatably mounted upon the stud 86.

Loosely mounted on the stem of the Overdraft key 11 (Fig. 14) is a pawl |35, urged counterclockwise by a spring |36 into engagement with the teeth of a ratchet |31 integral with the cams |22 (Fig. 10) and |34. Depressing the overdraft key 11 causes the pawl |35, in cooperation with the teeth of the ratchet |31, to rotate said ratchet and the cam |34 a slight distance counter-clockwise to move the high portion of the periphery of said cam |34 out of engagement with the roller |33 to release the lever |3| to the action of a spring |36, which moves said lever clockwise until the roller |33 engages the low surface of the periphery of the cam |34. Clockwise movement of the lever |3|, by means of the link |29, shifts the link |25 counter-clockwise to disengage said link from the stud |24 and to engage a notch |38 in said link with a stationary stud |39 in the right frame 60. In thecourse of an overdraft operation and in a manner presently cam |34 receives one counter-clockwise revolution to return the lever |3| counter-clockwise near the end of the second cycle of an overdraft operation to reengage the link |25 with the stud |24, so that the printer mechanism will function in the third cycle of an overdraft operation to print the true negative balance.

The ratchet |31 (Fig. 14) and the cams |34 and |22 are driven one counter-clockwise revolution each overdraft operation in the following manner: Depressing the Overdraft key 11 causes a stud |40 in the stem thereof, in cooperation with a slot in a latch |4| pivotally connected to a crank |42 secured on the shaft 18, to engagea notch |43 in said latch with a stud |44 in a slide |45, reciprocably mounted by means of horizontal slots therein, in cooperation with the main shaft 18, and the stud 85. Initial movement counter-clockwise of the main shaft 18 moves the slide |45 forwardly or towards the left, as viewed in Fig. 14, to cause a pawl |46 carried thereby to engage one of the teeth of the ratchet |31 to rotate said ratchet and the cams assembled thereto, from the position to which the cams were moved .by thepawl |35 to complete one-sixth of a revolution in a counter-clockwise direction. Return movement and |41 urges said pawls toward each other to maintain the teeth of said pawls in communication with the teeth of the ratchet wheel |31. Inasmuch as the main shaft 18 makes three cycles of movement in an overdraft operation, the slide |45 will be reciprocated back and forth three times, which due to the push-pull action of the pawls |46 and |41 will rotate the ratchet |31 and the cams assembled thereto one complete counter-clockwise revolution. Restoration of the Overdraft key 11 to undepressed position at the end of lan overdraft operation disengages the notch |43 in the latch |4| from the stud |44.

It is therefore obvious that the slide |44 and associated mechanism function only in overdraft operations.

I Amount keys The machine embodying the instant invention has nine denominational rows of amount keys and inasmuch as the mechanism for each of the nine rows of amount keys is substantially alike, it is believed that the description of one of the amount banks and its associated mechanism will be sufficient for the purpose of this specification. The row of amount keys illustrated/in Fig. 3 and their associated mechanism will now be described in detail.

Referring to Figs. 1, 3 and 4, the upper ends of the stems of the amount keys 1| 'extend through openings in the keyboard plate 69,' while each of said amount keys carries a stud |49, which extends through a vertical vslot in the partition plate 19, for the particular amount banks shown in Figs. 3 and 4. Spring clips |59 (Fig. 4), in cooperation with annular grooves in the studs |49, retain said studs in the vertical slot in the plate 19. A coil spring |5| laced around studs |52 in the key stem and studs |53 in the plate 19, returns the amount keys 1| upwardly to undepressed position when they are released near the end of the machine operation,

an amount key causes the pin |52 in cooperation with its corresponding angular opening in the control plate |55 to shift said plate forwardly against the action of the spring |51 to rock a zero latch |59 counter-clockwise on' its supporting shaft |59, mounted in the keyboard framework, to disengage the hook of said zero latch from a lug on an amount actuator rack |66 for thisv particular amount bank. The actuator |66 is mounted for horizontal reciprocating movement by means of a slotted rod |61, supported by the frames 69 and 6|, in -cooperation with a notched portion of the front end of said actuator, and by means of a bar |68 extending between the frames 69 and 6|, in cooperation with the slotted end of the actuator |66.

The actuator |66 has a vertical slot |69 therein, which engages a stud |19 in a downward extension of a reducer segment |1| mounted on a shaft |12 journaled in the frames 69 and 6|. A spring |13 stretched between the segment |1| and a bail |14 of a leading frame, normally maintains a beak of said segment |1| in contact with a bail |14. The bail |14 extends between two similar arms |15, only one here shown, which straddle all the reducer segments and which are secured on the shaft |12. The main operating shaft 18 (Fig. 14) is operatively connected to the leading frame shaft |12 by a roller V|16 carried by the arm 19, in cooperation with a camming slot |11 in an armv |18 secured to the shaft |12. It is therefore apparent that,

`oscillating movement of the main shaft 18 rocks bail |14 stretches the spring |13 without imparting any movement to the segment |1 I. Depressing an amount key rocks -the zero latch |58 to ineffectivev position and moves the stud |49 in said amount key into the path of the corresponding one of a series of graduated steps |19 cut in the top surface of the actuators |66. Upon operation of the machine, initial movement clockwise of the carrying frame bail |14, by means of the spring |13, carries the reducer vsegment |1| and the actuator |66 in unison therewith until the corresponding step |19 engages the stud |49 of the depressed amount key. This differentially after having been depressed. Associated with each amount bank is a detent plate |54 and a control plate |55, mounted to slide horizontally on the plate 19 by means of four rollers on four studs |56, secured in said plate 19.

Depressing an amount key causes the pin |52 therein, in cooperation with its corresponding hook-shaped projection formed in apertures in the locking plate |54, to shift said plate rearwardly or toward the right, as here viewed, against the tension of a spring |51, opposite ends of which are connected to the plates |54 and |55. When the pin |52 passes beyond the hook-shaped projection, the spring |51 returns the plate |54 forwardly to causethe hook to latch over the flat-topped surface of the pin |52 to obstruct upward movement of the depressed key 1| under influence of the spring |5|, and to lock said key in depressed position. Likewise depressing positions the actuator |66 and the segment |1| in proportion to the value of the depressed amount key, and the spring |13 permits the leading frame bail |14 to complete its initial movement counter-clockwise, independently of the segment |1| and the actuator |66. A link |89 connects an arm of the segment |1| Yto the type sector 68 for. this particular amount bank, and consequently transmits the differential movement of said segment |1| to said type sector 68. The sector 68 is pivotally connected to an arm |9| rotatably mounted on the printer shaft I 28.

After the type sector 69 has been positioned and the leading frame |14 has completed its initial movement .counter-clockwise, an aliner bar |69 is rocked into engagement with one of a series of tooth spaces in the segment |1| to aline said segment and the printing sector inset positions. The aliner |69 extends between similar arms |6| (only one here shown) secured vto an aliner shaft |62 journaled in the frames 69 and 6|. Initial movement counter-clockwise of the rotatably arm 19 (Fig. 14) causes the roller |16, in cooperation with a camming groove |63 in an arm |65 connected to the shaft |62, to rock said arm and said shaft clockwise to engage the aliner bar |60 with the segment |1|. After printing is completed and prior to return movement of the leading frame bail |14, return movement of the arm 19 disengages the aliner from the segment |1|. Immediately after the aliner |60 is engaged with the segment |1| a printer release trigger |82 (Fig. 3) is rocked counter-clockwise out of engagement with a tooth |83 of a plate |84, connected to the arm |8|, to release said arm to the action of a spring |85, to cause the type sector 68 to make an impression stroke to imprint the value of the depressed key upon the record material wound around the platen roll 61. The means for rocking the release trigger |82 is fully shown and described in the United States Patent No. 1,197,276, issued to Halcolm Ellis on September 5, 1916 When no amount key is depressed, a tooth |86 of a zero elimination pawl or order hook |81, pivoted on a shaft |88 supported by the printer framework, in cooperation with a corresponding tooth in the plate |64, retains said plate, the arm |8| and the printing sector 68 against printing movement when the trigger |82 is released. However, when a key is depressed, movement of the actuator |66 and the segment' |1| away from zero position causes a stud |89, in an extension of said segment |1|, in cooperation with an arcuate surface |90 on an extending tailo'i the zero elimination pawl |81, to rock the tooth |88 of said pawl out of engagement with the tooth in the plate |84 to permit the type sector 68 to make a printing stroke.

Totalizers and selection thereof The righthand end of the actuator |66 has two sets of rack teeth adapted to cooperate with corresponding wheels of a #l or balance totalizer, and a #2 or adding totalizer, mounted in a totalizer framework |9| secured to the frames 60 and 6|. While only two totalizers are here shown, it is but a matter of assembly to add additional totalizers by connecting them to the framework |9|.

The totalizers are selected and the machine is conditioned for adding and subtracting operations by means fully shown and described in the above Ellis Patent No. 1,197,276, which means is under control of tappets |92 (Figs. 3 and 20), mounted on a stop bar |93 secured to the travel-- Ving carriage 66, in cooperation with hanging bar levers similar to a subtract hanging bar lever |94 mounted on a stud |95 secured in the cross frame 64. In adding operations, after the leading frame bail |14 has completed its initial movement counter-clockwise and the actuator |66 and the segment |1| have been differentially positioned, the corresponding wheel of the selected totalizer is engaged with the teeth of said rack and return movement forwardly, or clockwise, of the bail |14 picks up the segment |1| and returns it and the actuator |66 to zero position, 'to rotate the wheel of the selected totalizer a corresponding distance, to accumulate therein the amount set up on the amount keys. In subtract operations, the wheel of the selected totalizer is engaged with the actuator |66 prior to its initial movement rearwardly and is consequently rotated in a reverse direction' to subtract therefrom the amount set up on the keyboard. Depressing the Non-add key 13 (Fig. 1) conditions the 75 machine ihr a non-adding operation in which the amount set up on the leef/hoard is merely printed and not entered in. any oi the totaliaers.-

In addition to the subtract hanging bar lever |94, the balance totalizer may be selected for a subtract operation by means of the Subtract key 13. The different totalizers are selected and the machine is conditioned for total and subtotal operations by means of the "Total and Sub-total and the "Balance and Sub-baiance control keys 13. The #l or balance totalizer has the well known dual transfer mechanism shown and described in Letters Patent of the United States No. 1,203,863 referred to above, for transferring amounts from lower to higher denominations. The transfer mechanism is shifted from adding to subtracting position depending upon the type of operation being performed. The #2 or adding totalizer has a single transfer mechanism for transferring amounts from lower to higher denominations.

In the beginning of sub-total and total operations the control plate |55 (Fig. 3) is shifted forwardly in a manner presently to be described, to move the zero latch |58 to ineffective position so that the actuator |66 is free to move upon oscillation of the leading frame bail |14. Prior to-initial movement rearwardly of the actuator |66 the wheel of the selected totalizer is engaged therewith by mechanism described in the abovenamed Patent No. 1,197,276, whereupon initial movement of said actuator, under inuence of the shaft |12 and the leading frame |14, reverse- 1y rotates the wheel of the selected totalizer until said wheel is stopped in zero position by means of the tooth on a tripping cam integral therewith coming in contact with its associated add transfer pawi. This positions the actuator |66 and the type sector 68 commensurate with the amount of the totalizer wheel so that this amount may be recorded when the printing sector 68 makes its printing stroke. It will be noted that the contour of the camming slot |11 in the arm |18 (Fig. 14) permits the shaft |12 and the leading frame to dwell for an appreciable time at the terminus of their movement in either direction. In total operations, during the dwell of the leading frame after its initial movement counterclockwise, the wheel ci the selected totalizer is disengaged from the actuator |66 and as said wheel is standing at zero, the totalizer remains in a cleared condition.

lin sub-total operations, the wheel oi the selected totalizer remains engaged with the actuator N56 during its return movement forwardly and is consequently returned to its original position, as described in said Patent No. 1,197,276.

Amount key locking mechanism Mechanism which cooperates with the locking plate, or detent |54, locks the 'amount keysy against depression or release during machine operations.- i

Referring to Figs. 5 and 9, secured on the main shaft 18 is an arm |96 with a stud |91, which cooperates with a projection |98 on a pitman |99 slidably mounted by means of a bifurcated lower end thereof in cooperation with a collar on the shaft 18, and by means of a slot, in said pitman, in cooperation with a stationary stud 200. The upper end of the pitman cooperates with a stud 20| in anextension of an arm 202 secured on a shaft 203 journaled in the keyboard framework. A spring 204, one end of which is connected to an extension of the arm 202, urges said arm and the shaft 203 counter-clockwise to normally maintain the stud 20| in contact with the upper end of the pitman |99.

Intial movement counter-clockwise of the main shaft 18 and the arm |96 withdraws the stud |91 from the projection |98 and permits the spring 204' to move the arm 202 and the shaft 203 counter-clockwise to shift the pitman |99 downwardly. Counter-clockwise movement of the shaft 203 moves a lug 205 (Figs. 3 and 8) carried thereby into the path of a shoulder 206 on a projection of the locking detent |54 to prevent movement of said detent during machine operations. In adding, non-adding and subtractingv operations, this locksthe depressed amount keys against release and the undepressed amount keys against depression and in total-taking operations it locks all the amount keys against depression. Near the end of return movement clockwise of the shaft 18 and the arm |96, the pitman |99 is returned upwardly to rockthe lug 205 out of the path of the shoulder 206, in which position the parts are maintained when the machine is at re'st. v

Key releasing mechanism Mechanism is provided for automatically releasing the depressed amount keys at the end of non-adding, adding and subtracting operations,

and for releasing any amount keys carelessly or inadvertently depressed, prior to a tot-al ora subtotal operation, in the beginning of said operations. Manual means is also provided for releasing the depressed amount keys.

Calling attention to Figs. 1 3 and 8, the Release key 13 has pvotally connected thereto one end of a toggle link 201, the other end of which is bifurcated to straddle a stud 208 in a bar 209 mounted for horizontal sliding movement by means of horizontal slots therein in cooperation -with studs 2|5 and 2|6 in the left frame 6|. De-

lpressing the release key 13 shifts the bar 209 rearwardly, causing a stud 2|1 in an upward exto shift said control plate forwardly for a purpose presently to be described and to shift said lccking plate |54 rearwardly to disengage one of the hooks in said locking plate from the stud |52 in the depressed amount key. This frees the depressed key to the.action of the spring |5| (Fig. 4) which immediately returnsl said key upwardly to undepressed position.

Pivoted on a stud 224 (Fig. 8) carried by the bar 209 is a key release pawl 225 urged clockwise by a torsion spring 226 to normallylmaintain the bottom surface of the hook 221 thereon in resilient engagement with a roller 228, mounted on a disc 229, secured on the main shaft 18. Initial movement counter-clockwise of the shaft 18 and the disc 229 causes the roller 228 to move beyond the hook 221, whereupon the torsion spring 226 immediately rocks the pawl 225 clockwise to move the hook into the path of said roller 228. Return movement clockwise of the shaft 18 and the disc 229 causes the roller 228 to engage the hook 221 to shift the bar 209 rearwardly to rock the shaft 2|9 and the'arm 220 counter-clockwise to shift the locking plate |54 rearwardly to release the depressed amount keys in the manner explained above. Before the shaft 18 and the disc 229 complete their return movment clockwise, an upward projection 230 of the pawl 225 engages a stationary stud 23|, which disengages the hook 221 from the roller 228 and permits return. of th'e bar 209 and associated mechanism to normal position by the spring |51 (Fig. 3), tensioned between the plates |54 and |55.

The mechanism described above automatically releases the depressed amount keys in non-adding, adding and subtracting operations.v In total and sub-total operations it is necessary that the automatic amount key releasing mechanism function in the early part of an operation, in order to release any amount keys carelessly or inadvertently depressed prior to said operations.

A latch 232 (Fig. 8) pivoted on a stud 233 in the left frame 6| in cooperation with a notch in the stem of Athe Sub-balance key 13 is adapted to retain said balance key depressed. The latch 232 has pvotally connected to the lower end thereof a lever 234, urged counter-clockwise by a spring 235 against a stop collar 236 on the stud 2|6. A stud 231, carried by said lever 234, in

cooperation with a tail on an amount key release Depressing any of the Total keys or the` Sub-total, the Balance or the Sub-balance l kev 13 (Fig. l) by mechanism not here shown but well known in the art, and shown and `described in United States Letters Patent No. 1,731,701, issued to F. W. Bernau on October 15, 1929, rocks the lever 234 (Fig. 8) clockwise to retract the stud 231 from the tail of the pawl 238 to permit the torsion spring 226 to rock the notch 240 into engagement with the roller 24|. Thereupon initial movement counter-clockwise of4 the shaft 18 and the disc 229 causes the roller 245 to engage a nede 246 of the camming surface on the lever 242 to rock said lever counter-clockwise to shift the pawl 238 and the bar 209 rearwardly. Rearward movement of the bar 209 rocks the shaft 2|9 and the arm 220 counter-clockwise to shift the locking detent |54 rearwardly to release any amount key which might have been depressed carelessly or through inadvertence.

Inasmuch as no amount keys are depressed in total and sub-total operations. it is obviously necessary to move the zero latch |58 (Fig. 3) to ineffective position in some manner. so that the rack |66 is free to be positioned by its correspending totalizer wheels, and this is aecomplished in the following manner.

Counter-clockwise movement of the arm 220 also shifts the control plate |55 forwardlv to rock the zero latch |58 (Fig. 3) out of engagement with the projection to freethe actuator |66 so that it may be positioned by its corresponding tctalizer wheel.

After the bar 209 (Fig. 8) has moved' rearwardly a sufficient amount to release the improperlv depressed amount keys and to move the zero latches to ineffective positions. a roller 241 carclockwise to disengage the notch 240 from the A spring 244 urges roller 24| to permit the barililii and associated parts to be spring-returned to normal position, as here shown. When the depressed total or sub-tota1 key is released, the lever 234 is spring- "returned counterclockwise to normal position to cause the stud 231 to engage the tail of the pawl 238 to retain said pawl in ineffective position after the shaft 18 and the disc 229 have been returned clockwise to normal position, as here shown, and the roller 241 is moved out of the path of the camming surface 242i.

Mechanism to prevent release of the machine when an amount key is partially depressed In order to prevent release of the machine for operation when an amount key is partially depressed, mechanism shown in Figs. 3, 5, and 10 locks 'the release mechanism against operation until the amount key is either fully depressed or fully released. Depressing an amount key 1| causes the stud |52 therein, in cooperation with the angular nose of a corresponding hook, to rock the locking detent |54 rearwardly until said stud |52 passes beyond said hook whereupon the detent |54 is spring returned forwardly to latch the hook over the stud |52 to retain said amount key depressed. A rod 249 extends across the keyboard framework, in the path of the ends of the locking plates or detents |54. The rod 249 is supported by two arms 250 and 260 secured on opposite ends of a shaft 25| journaled in the partition plates 10 and a plurality of similar partition plates 210 for the item counting keys 12 (Fig. 5).

Rearward movement of the detent |54 (Fig. 3) rocks the rod 249 and the arms 250 and 260 clockwise, causing a stud 252 in the upper end of the arm 25|! in cooperation with an arm 253, secured on a shaft 254 journaled in the frames 60 and 6|, to rock said arm and said shaft clockwise against the action of a spring 255 (Fig. 10), one end of which is connected to a crank 256 secured on the shaft 254. Clockwise movement of the shaft 254 retracts the finger of an arm 251, secured thereon, from a stud 253 in an extension of a starting bar locking plate 259 pivoted on a stud 265 in the frame 60. This permits a spring 266 to rock said locking plate 259 counter-clockwise to move a shoulder 261 thereon into the path of a square stud 268 secured in the lever 82 to block counter-clockwise releasing movement of said lever 82. It is therefore evident that if an amount key is retained partially depressed, the shoulder 261 will be retained in the path of the stud 266 to prevent operation of the machine until the amount key is either fully depressed or fully released. Normally, a clearance notch in the end of the locking plate 259 permits counter-clockwise releasing movement of the lever 82.

Item counting mechanism The machine embodying the present invenance totalizer, transfers amounts from lower Lo higher order item counting wheels. Being upon the same axle as the #l or balance totaliaer amount wheels, the item counting wheels are engaged with their respective actuators in ei:- actly the same time as the wheels ofthe balance totalizer are engaged with their actuators.

In the present arrangement only debit items are counted, and naturally at this time the wheels of the item counting device are engaged with and disengaged from their actuators in subtracting time. Therefore in order to count the debit items, the complement of the number oi' ino items is subtracted from the item counting wheels. ,For example, with the three item counting wheels in zero position, in order to count one item it is necessary to rotate the three wheels reversely nine steps to subtract the complement of one (999) therefrom, leaving said wheels standing at 001. Obviously, during such an op eration, the printing sectors associated with the item counting wheels will go to nine, and if al* lowed to print would recorcian erroneous result. Therefore in order to prevent such an erroneous recording, the item counting type carriers are allowed to print only in balance operations, at which time the wheels of the item counting de vice position the printing sectors. Before items can be counted in the item counting wheels either automatically or by using the item count ing keys, it is necessary that the traveling can riage be tabulated to a subtract col-umn.

The item counting keys are used when it is desirable to enter more than one item at a time. For example, in banking institutions often a number of checks, for a speciiic purpose, are bunched and the total amount of these checks subtracted from the depositors balance at one time. In this case the operator sets up the number of checks in the bunch on the item counting keys and enters this total amount in item count-r ing wheels. Ordinarily, however, only one debi: item is subtracted from the depositors balance at a time, and in this case the item counting mechanism functions automatically to count om each time a debit item is subtracted from the balance. Before the automatic item accumuli-iting mechanism will function, it is necessary that the traveling carriage be tabulated to a subtiuci column, and that one or more of the amount keys 1| be depressed. A control key is provided for rendering the check counting device inactive in subtract operations, in case it is desirable not to have certain items counted. The control also causes a symbol to be printed opposite the item to indicate that said item was not counted.

I teni counting keys As previously explained, there are three de nominational rows of check or item counting keys 82 (Fig. l). A cross sectional view of the second row of these keys is shown in Figs. 5 and 6, and mechanism which is coinon to all three rows of item. counting keys will be explained in connection with these iigures.

The upper `ends of the stems of the item counting keys extend through the keyboard plate 69 while fast in the lower end of each of said key stems is a square stud 269 which protrudes through a corresponding vertical slot in one of the partition plates 210 similar to the amount partition plate 10 and forming a part of the kcy board framework. A bar 21 I, which is connected to the plate 210 by screws, overlies the lower ends of the stems of the keys 12 to retain the studs 269 in their respective slots. A coil spring 212 is threaded between stationary studs 214 in the plate 210 and pins 213, one of the latter of which is carried by each of the keys 12 and the spring 212 provides a means of returning the keys upwardly toundepressed position. Each of the pins 213 cooperates with a corresponding camming surface in an opening in a control plate 215 and its corresponding camming surface on the nose of a hook in a locking detent 216, similar in every respect to the amount control plate |55 (Fig, 3) and the amount locking detent |54. The plate 215 and the detent 216 are mounted for horizontal sliding movement by means of rollers turnably mounted upon four studs 211 secured in the partition plate 210 and retained 'in place by means of spring clips assembled in annular grooves in each of the studs 211. A spring 218 stretched between the plate 215 and the detent 216 urges them rearwardly and forwardly respectively to normally maintain the camming surfaces thereon in contact with the pins 213 inthe keys 12.

Depressing an itemcounting key 12, in any one of the three -rows, causes the pin 213 in said key in cooperation with the corresponding camming surface on the control plate 215 to shift said control plate forwardly against the action of the spring 218 (Fig.,5) to move the zero latch for the main actuator for that particular row of keys to ineffective position in a manner to be fully explained later. Also upon depression of an item counting key the pin 213, in cooperation with the angular surface on the nose of the corresponding hook for that key, shifts the locking detent 216 rearwardly against the action of the spring 218 until said pin 213 moves beyond said hook, whereupon the spring 218 returns the locking detent 216 forwardly to latch the hook over the pin 213 to retain the key 12 depressed.

The right-hand endof the detent 216, as observed in Eig. 5, cooperates with the rod 249 in 'exactly the same manner as the amount detent |54 (Fig. 3) to prevent release of the machine when onefof the item counting keys is partially depressed.

The units row or row one of the item counting keys has a main actuator 219, (Figs. 'I and 16) the tens row or row 2 (Figs. 5, '1, 12 and 17) has a main actuator 280 and an auxiliary actuator 28|,

and the hundreds row or row 3 (Figs. 7, 13 and 18) has a main actuator 282 and an associated auxiliary actuator 283. Taking the main actuator 280 (Fig. 5) as representative of all the main actuators for the item counting banks, these actuators are mounted for horizontal sliding movement upon the rod |61 and the bar |68 in exactly the same manner as the amount actuator |66 (Fig. 3). Each of the main actuators 219, 280, and 282, has therein a vertical slot 264 which embraces a stud 285, in a downward extension of a reducer segment 286 rotatably mounted upon the shaft |12. A link 281 connects a rearward extension of the segment 286 to a type sector 288 similar in every respect to the amount type sector 68 (Fig. 3). A spring 289 normally maintains a beak 29') Lof the segment 286 in contact with the bail |14 of the leading frame.

The main item counting actuators 219, 280 and 282. (Figs. 5 and 7) have teeth on the rearward ends thereof which cooperatev respectively with item counting wheels 29|, 292 and 293, mounted upon the #l or balance .totalizer shaft. Each of the item counting wheels has integral therewitha'tripping cam 294 having diametrically opposed tripping teeth which cooperate with their respective add tripping pawls 295 and subtract tripping pawls 296. In the present embodiment, items are counted only in subtractoperations, therefore the add tripping pawls 2,95 serve only to stop the item counting wheels in zero position in sub-total and total operations. In the beginning of subtract operations the add pawls 295 are shifted out of the 'pathI of the teeth in the tripping cams 294 and the subtract pawls 296 are shifted into the` path of said teeth. In subtotal and total operations, the add pawls 295 are returned into the path of the tripping cams 294. The auxiliary actuators 28| 'and 283 (Figs. 5

land '1) are slidably mounted adjacent their respective main actuators 280 and 282 in slots in the rod |61 and by means of horizontal slots 291 in the right-hand end of said auxiliary actuators, as here viewed, in cooperation with a stud 298 secured in each of th'e main actuators. The auxiliary actuators 28| and 283 carry respectively latch arms 299 and 300, (Figs. 5, 12 and 13) carrying studs 30| and 302 adapted to engage notches in blocks 303 and 304 secured respectively to the main actuators 280 and 282. Springs 305 urge the latch arms 299 and 300 clockwise to engage the studs 30| and 302 with the notches in the blocks 303 and 304, when the restraining means is removed from said arms 299 and 300.

Referring to Figs. 16, 17, and 18, the main acrespectively blocks 306, 301 and 308, and the auxiliary racks 28| and 283, (Figs. 12 and 13) have-secured thereto similar blocks 309 and 3|5. The blcck 306 on the main actuator 219 (Fig. 16) has cooperating therewith two zero latches 3|6 and 3|1 loose on the shaft |59, which are adapted to latch the main actuator 219 in zero position under' certain conditions to be revealed later. The block 301 (Fig. 1'?) on the main actuator 280, has cooperating therewith two zero latches 3|8 and 3|9 loose on the shaft |59 and the main actuator 282, (Fig. 18) has cooperating with the b1ock'308 assembled thereon a zero latch 320. The block 309 (Fig. 12) on theauxiliary actuator 28| hasV cooperating therewith twozero latches 32| and 322 loose on the shaft |58 and the block 3|5 for the auxiliary actuator 283 (Fig. 13) has cooperating therewith zero latches 323 and 324, rotatable on the shaft |59.

Carriage control of item counting device As previously stated, before the item counting mechanism can function automatically, it is necessary that the traveling carriage be tabulated to a subtract column, and that one or more amount keys be depressed. Directing attention to Figs. '1, 19, 20 and 2l, when the machine is at rest, an extension 325 of a yoke 326 is positioned so that it is in the path of shoulders 3|4 on the forward ends of the main and auxiliary item counting actuators to retain said actuators in zero positions. A downward extension 321 of the yoke 326 has pivotally connected thereto the forward end of a pitman 328, the other end of which is bifurcated to straddle a collar on the shaft |62. A spring 329, one end of which is connected to the extension 321, urges the yoke 326 counterclockwise and the pitman 328 rearwardly to northerefrom. After the the spring 329 to shift the ptman rearwardly and rock the extension 325 of the yoke 321i downward-- ly out of the path of the :shoulders 314, 'unless such rearward movement of the pitman 328 is obstructed by means of a bent-over ear 332 thereon, in cooperation with the yend 333 of an arm 334 loose on a shaft 335 journaled in the frames 60 and 6|.` An upward extension 336 of the arm 334 carries a stud 331 embraced by the bifurcated end of a link 339, the other end of which is pivoted to a downward extension of a control lever 34|), loose on a stud 34| in the left frame 6|. An extension 342 of the lever 34|] has connected thereto the lower end of a hanging bar 343, the upper end of which is connected to one end of the hanging bar lever |94.

Tabulating the traveling carriage 66 (Figs. 3 and to a subtract column causes a lug 344 on the subtract tappet |92 to engage the upturned end of the lever |94 and rock said lever clockwise, to lift the hanging bar 343 and rock the lever 340 counter-clockwise, as viewed in Fig. 19. Counter-clockwise movement of the lever 340 causes a bent-over extension 4|8 on the upper end thereof, in cooperation with a stud 4|9 carried by a lever 420, to rock said lever also counter-clockwise upon its pivot stud 42|, secured in the left frame 6|. Counter-clockwise movement of the lever 420 causes a stud 422 in the hook-shaped lower end thereof, in cooperation with an angular camming surface on a totaliizer engaging lever 423, to rock said lever` 423 counter-clockwise upon a stud 424 secured in the left frame 6|. Counter-clockwise movement of the engaging lever 423 moves the ends of springpulled engaging and disengaging pawls 425 and 426 into the path of the lower end of a flying lever 421 pivoted at 428 to a totalizer engaging plate 429 secured on the main shaft 1B.

Initial movement counter-clockwise of the main shaft 16 (Fig. 19) and the plate 429 causes the lower end of the flying lever 421 to engage the end of the pawl 425 to shift a link 430, connecting the upper end of said flying lever 421 to a crank 43| secured on a #l totalizer engaging shaft 432, forwardly to rock the crank 43| and the shaft 432 the #l or balance totalizer (Fig. 3) with the amount actuators |66 prior to their initial movement rearwardly, and to engage the wheels 29|, 292 and 293 izer with their respective main actuators 219, 230, and 282 prior to their initial movement rearwardly. Initial movement rearwardly of the actuators reversely rotates the wheels of the balance totalizer to subtract the amount set up on the amount keys therefrom and also reversely rotates the wheels of the item-counting totalizer to subtract the complement of the amount of the item actuators have completed their initial movement rearwardly, return movement clockwise of the main shaft 18 (Fig. 19) and the plate 429 causes the lower end of the flying lever 421, which, during the initial movement of said shaft 18 and said plate 429, by-passes the upper end of the pawl 426, to engage said pawl to shift the link 430 rearwardly to rock the crank 43| and the #1 `tctalizer engaging shaft 432 counter-clockwise to disengage the wheels of the balance totalizer and the item counting wheels from the actuators.

Depresslng the subtract key 13 selects and conditionsthe balance totalizer for a subtract operclockwise to engage the wheels of l (Fig. 7) of the item counting totalation and in addition prevents the item counting device from functioning automatically at this time.

Depressing the subtract key 13 (Fig. l9) moves a notch 433 therein opposite a bent-over ear 434 on a lever 435 pivoted on the stud 42|. This permits a spring 436 to urge the lever 435 counter-clockwise to cause a projection on the lower end thereof, in cooperation with a stud 431 in the lever 420, to rock said lever counter-clockwise to select and condition the balance totalizer for a subtract operation, in the manner explained above. Prior to the end of a subtract operation the lever 435 is rocked clockwise, in the well known manner described in the above-mentioned Patents Nos. 1,819,084 and 1,197,278, to move the ear 434 out of engagement with the slot 433 to permit the subtract keyl 13 to be spring-returned upwardly, after which the ear 434 comes to rest on the edge of the key 13, as here shown.

Counter-clockwise movement of the lever 34D, (Figs. 19, 20 and 2l), when the traveling carriage is tabulated to a subtract column, shifts the link 338 rearwardly to rock the arm 334 clockwise against the tension of a spring 4|1, to move the end 333 thereof out of the path of the ear 332 to permit rearward movement of the pitman 328 and counter-clockwise movement of the yoke 326 to ineffective position upon initial movement of the main shaft 18 and the arm |96. How the subtract key disables the automatic counting of items will be explained later. It is therefore obvious from the foregoing description that it is necessary for the balance totalizer to be selected and conditioned for a subtracting operation by the carriage before the item counting actuators are free to move out of zero positions.

Automatic accumulation of items Each time a debit item is subtracted from the balance totalizer, one is entered in the item totalizer. Depressing an amount key 1| in any order releases the three main actuators 219, 280 and 282 (Fig. 7) for full movement to subtract the complement of one (999) from the item counter.

Each of the zero latches |58 (Figs. 3 and 15) for the several amount banks, has a hook 345 which underlies a rod 346, which extends the full width of the keyboard and is supported by similar arms 341 secured on the shaft |59. Depressing one of the amount keys 1| shifts the associated control plate |55 forwardly to rock thc latch |58 counter-clockwise to lift the rod 346. It will be noted by referring to Figs. 15, 16, 17, and 18, that the rod 346 underlies shoulders on the zero latches 3|1, 3|9 and 320 for the main actuators 219, 280 and 282, It is therefore obvious that upward movement of the rod 346, when an amount key is depressed, rocks the pawls 3|1, 3|9 and 32|) counter-clockwise against the action of springs 348, which normally maintain said pawls in engagement with the blocks 306, 301 and 308 on the main actuators, upwardly out of engagement with said blocks. The latches 3|6 and 3|8 for the main actuators 219 and 280 are yieldingly retained in ineffective position, as shown in Figs. 16 and 17, by a spring 3|3 (Fig. 16) which is coiled about the shaft 312, one end of said spring being formed to engage the downwardly projecting arm of the bell crank 310, as shown inFig. 16, and the other end of said spring projecting upward to engage on the upper edge of the projection 364 of the partition plate 14 for the highest order amount bank, which projection is shown in the lower left-hand cor- I ner of Fig. 4, as supporting .shaft 312. The `spring is thus normally under tension, so as to yieidingly hold the latches 3|6 and 3|8 in normal ineffective position when the item counting mechanism functions. automatically. Consequently the main actuators are free to move full distance rearwardly to ninth position under iniiuence of the leading frame bail |14 (Fig. 5), in.

which position they are stopped by means of the shoulders 3|4 contacting the rod |61.

When items are counted automatically the auxiliary actuators 28| and 283 of rows 2 and 3. respectively (Figs. 12 and 13) remain latched in zero positions, as here shown because -when no item counting keys are depressed both the latches 32| and 322, for the auxiliary actuator 28| of row 2, and the latches 323 and v324, for

the auxiliary actuator 283 of row 3, remainv latched over the blocks 309 and 3|5, as here shown. The latches 32|, 322, 323 and 324, for the auxiliary actuators are spring-urged clockwise to effective positions by springs 324.

The latches 32| and 322 (Fig. l2) have angular noses, which cooperate lwith a corresponding angular surface on the end of the arm 299, and the latches 323 and 324 (Fig, 13) have similar angular noses which cooperate with a corresponding angular surface onthe end of the arm 300. When either of the latches 32| or 322 is in eiective position, as here shown, the spring tension thereon is sufiicient to overcome the action of the spring 305 and retain the stud 30| out of engagement with the notch in the block 303, and the same is true of the latches 323 and 324 for the auxiliary actuator 233, and in such cases the auxiliary actuators remain uncoupled from their corresponding main actuators.

In subtract operations the wheels of the balance totalizer and the item counting wheels are engaged with their respective actuators, prior to initial movement of said actuators, which movement reversely rotates the amount wheels to subtract therefrom the amount set up on the keyboard, and reversely rotates the. item `counting wheels to subtract therefrom 999, which is the complement of one, when there are three denominational orders. Since there are only three denominational orders of counter wheels, the result is to bring the counter pinions to positions like those they would have occupied if one unit had been added into the counter wheel 29| (Fig. 7). Prior to return movement forwardly of the main item counting actuators-and the amount actuators, the item counting wheels and the wheels of theKbalance totalizer arev disengaged therefrom.

Disabling of automatic item counting mechanism causes the lower end thereof to engage the camming surface of a projection 349 of a slide 350.

' mounted on the left frame 6| by means of two horizontal slots therein, in cooperation with studs 360 secured in the frame 6|, to shift said slide 350 forwardly. A link 35| pivotally connects the slide 350 to a crank 352, secured on the shaft 335, and rocks said crank and said shaft clock- Cil said shaft, into the path of the bent-over ear 332 on the link 328 to retain the extension 325 of the yoke 326 in the path of the shoulders 3|4 to obstruct movement of the item counting actuators, to prevent the item-counting mechanism from functioning automatically, even though the traveling carriage is tabulated to a subtract column. Normally the surface 353 of the arm 354 is below the ear 332 and does not obstruct movement of the pitman 328 upon operation of the machine. In addition to controlling the itemcounting mechanism, the slide 350 is also arranged to positionv a symbol type carrier, in the manner shown and described in the above-mentioned Ens patent. Consequently depression of the Subtract key causes a symbol to be printed opposite the debit item to show that said item was not counted.

Other control keys, including the Non-add" key, the Total check key, and the Total deposit key, also position the slide 350 to cause a symbol to be printed characteristic of the dii'- ferent operations these keys initiate. Positioning of the slide 350 by the keys mentioned above, also rocks the arm 354 clockwise (Fig. 19) to move the surface 353 into the path of the ear 332. However, this movement of the arm 354 is incidental to the positioning of the symbol type carrier and is not necessary to prevent automatic operation of the item-counting mechanism at this time, becausewhen these control keys are used, the traveling carriage is not in a subtract column and consequently the arm 334 obstructs movement of the pitman 328 andthe extension 325 of the bail 326 to prevent automatic operation of the check counting mechanism.

In balance and sub-balance operations it is desirable that the extension 325 of the yoke 326 be moved to ineffective position so that the item ,counting actuators are free to be positioned by the item counting wheels, when they are returned to zero, so that said actuators may in turn position their respective type carriers to record the amount standing on the item counting wheels.

Depressing either the "Balance or the Subbalance key 13 causes the lower end of the stems of said keys, in cooperation with a corresponding cammina.r surface on a projection 355 or a projection 356 of the slide 350, to move said slide forwardly, which by means of the link 35| rocks the shaft 335 and the arm 354 a sufficient distance clockwise (Fig. 19) to move the arcuate' surface 353 beyond the ear 332. This clockwise movement of the arm 354 is sufiicient to cause astud 351 (Figs. 19 and 21) therein to engage the lower surface of the arm 334 and rock said arm upwardly out of the path of the ear 332, which is obviously necessary as the traveling carriage is not in a subtract column when a balance or a sub-balance is being taken. Therefore, when either the Balance or the Subbalance key 'I3 is depressed the pitman 328 moves rearwardly under influence of the arm |96 upon initial movement counter-clockwise of the shaft 18 to rock the extension 325 out of the path of the shoulders 3I4 onthe ite'm counting actuators to cause the total to be taken from the item wise when the slide 350 is shifted forwardly by depression of the subtract key. n

Clockwise movement of the shaft 335 rocks an arcuate surface 353 on an arm 354, secured on counting wheels and recorded.

Use of item counting keys- When using the item counting keys l2 (Figs. 1 and 5) for entering more than one item in the wheels of the item counter it is necessary to have the traveling carriage tabulated to a subtract column, the same as when items are autovice.

matically entered in the item counting wheels, however, it is not necessary that an amount key be depressed. There are seven problems pre sented in the use of the item counting keys and it is believed that the best way to explain this mechanism is to treat each problem separately.

EXAMPLE 1.-Item key depressed in row 1 When a key is depressed in the units row, or row I, of the item counting device, it is necessary that the main actuator for this row go to the complement of the number, and for the main actuators of row 2 and row 3 to go to 9. For example, if the 4 key (Figs. 1, 15 and 16) is depressed in row I the actuator 219 for row I, under influence of the leading frame bail |14, moves to its sixth position, in which position it is located by means of a corresponding one of a series of graduated steps 356 on the top edge thereof coming in contact with the stud 269 in the depressed key. This movement of the actuators 219 rotates the units item counting wheel 29| (Fig. 7) reversely six steps, which positions the units item counting wheel into the position it would have occupied if 4 had been added.

Depressing the 4 key in the first row releases the main actuators for rows 2 and 3, and as there are no keys depressed in these rows, the actuators for rows 2 and 3 travel full distance to ninth position. The three actuators therefore move to subtract the complement 996 from the item counting wheels, which, assuming that the wheels were in zero position at the beginning of the operation, leaves the units wheel standing at 4. and the tens and hundreds wheels standing at zero. The latch 32| (Figs. 12, 15, and 16) is yoked to a hook-shaped extension 359, which underlies the rod 346, and an upward extension 366 of said latch is adapted to cooperate with the control plate 215 for the first row of item counting keys in exactly the same manner as the amount latch |58 explained earlier herein.

Depressing a key in row I shifts the control plate 215 forwardly to rock the latch 32| countcp-clockwise to cause the hook 359 to shift the rod 346 to move the latches 3|1, 3|9 and 320 (Figs. 16, 17, and 18) for the main actuators 219, 280 and 292 to ineffective positions. The zero latch 32| (Fig. 12) for the auxiliary actuator 28| is rocked to ineffective position, how ever, the latch 322 remains effective, and holds said actuator in zero position. The latches 323 and 324 for the auxiliary actuator 283 (Fig. 13) remain effective to retain said actuator in zero position. The latches 3|6 and 3|8 for the main actuators 219 arid 260 remain in ineffective positions as here shown. It is therefore evident that the main actuator for row I is free to move until it is positioned by the stud 269 (Fig. in the depressed key, and the main actuators for rows 2 and 3 are free to move the full distance to ninth position to subtract the complement of the amount set up in row I from the wheels of the item counting device.

EXAMPLE 2.-Item key depressed in row 2 When a key is depressed in row 2 of the item counting device, for example, the 4 key, it is neccssary to subtract the complement of 40 (960) from the three wheels of the item counting de- This is accomplished by retaining the main actuator for row I in zero position and by allowing the main actuator for row 2 to move to sixth position, in which position it is stopped by the stud in the depressed key in cooperation with the corresponding step 359 thereon, and by permitting the main actuator ior row il to go to ninth position. As before, the auxiliary actuators are retained in zero positions.

The latch 322 (Figs. 15 and 17) is yoked to a hook-shaped extension 366, which underlies the rod 346, and has an upward extension 361 which cooperates with the control plate 215 for row 2. Depressing a key in a row 2 shifts the control plate 215 forwardly to rock the latch 322 counter-clockwise to cause the extension 366 to lift the rod 346, to rock the latches 3|1, 3|9 and 326 for the main actuators 219, 280 and 262 (Figs. 16, 17 and 18) to ineffective positions. The latches 316 and 3|8 carry studs which extend respectively through slots in the upper ends of links 366 and 369, the lower ends of which are pivotally connected to bell cranks 31D and 31| secured on a shaft 312 rotatably supported by the keyboard framework. Also secured on the shaft 312 is a plurality of arms 313, the upper ends of which support a rod 314, which cooperates with downward projections 315 of the extension 361 of the latch 322, and 316 of an extension 311 of the latch 324. Springs 318 and 319 (Figs. 16 and 17) form flexible connections between the latches 3|6`and 3|8 and their respective bell cranks 310 and 31|, so that said bell cranks and their associated links may move independently of the latches when said latches are retained in ineffective positions in a manner later to be described.

Counter-clockwise movement of the extension 361 lifts the rod 346 to move the latch 3I1 to ineffective position. However, the projection 315 of the extension 361 rocks the rod 314, the shaft 312, and the bell cranks 310 and 31| clockwise against the action of the spring 3|3 (Fig. 16). Clockwise movement of the bell crank 310, by means of the link 366 moves the latch 3|6 downwardly into engagement with the block 306 to obstruct movement of the main actuator 219. Counter-clockwise movement of the extension 361 (Figs. 15 and 17) moves a stud 380 carried thereby into engagement with the upper end of a slot in the latch 3|8 to prevent clockwise Inovement of the latch to effective position under influence of the bell crank 31|, the spring 319 forming a flexible connection that'permits movement of said bell crank independently of said latch 3| 6. It is, therefore, apparent that when a key is depressed in row 2 the main actuator 219 for row will be retained in zero position, the main actuator 260 for row 2 will be positioned by the depressed key, and the main actuator 282 for row 3 will travel to the 9 position, and the two auxiliary actuators will be retained in zero positions to subtract the complement (960) of the value of the depressed key from the item counting wheels.

EXAMPLE -3.--Item key depressed mrow 3 When a key is depressed in row 3 it is necessary that the main actuators for rows and 2 be retained in zero positions, the main actuator for row 3 be positioned by the depressed key, and that the two auxiliary actuators for rows 2 and 3 be retained in zero positions. For example, ii it is desired to count 400 in the item counting wheels it is necessary to subtract its complement 600 therefrom. Depressing the 4 key in row 3 causes the main actuators for rows and 2 andy the auxiliary actuators for rows 2 and 3 to be retained in zero positions, and positions the main actuator for row 3 in sixth position, which revolves the corresponding item counting wheel reversely six steps to fourth position, which has the' effect of advancing the hundreds counter wheel four steps.

Depressing a key in row 3 shifts the control plate 215 (Figs. 15 and 18) therefor forwardly to rock the extension 311 and the latch 324 counter-clockwise. Counter-clockwise movement of the extension 311 causes the projection 316 in cooperation with the rod 314 to rock the shaft 312 clockwise, which by means of the bell cranks 310 and 31| (Figs. 16 and 17) and their associated links 368 and 369 rocks the latches3l6 and 3|8 clockwise into engagement with their respective blocks 306 and 301 to retain the main actuators 219 and 280 in zero positions during operation of the machine.

While there is no hook on the extension 311 of the latch 324 to lift the rod 346, this rod is nevertheless lifted by the hook 345 (Fig. 15) on the zero latch |58 for the amount bank in which an amount key is depressed, and rocks the latches 3|1 and 3|9 for the main actuators 219 and 280 to ineffective positions; making it necessary to move the latches 3|6 and 3|8 to effective positions. The rod 346 (Fig. 18) rocks the latch 320 out of engagement with the block 308 to free the main actuator 282 for row 3. While there is no reason for operating the machine without depressing an amount key, it is possible, and in such a case counter-clockwise movement of the extension 311 (Fig, 18) causes a stud 38| therein, in cooperation with an angular slot in the latch 320, to rock said latch out of engagement with the blocks 308 to free the main actuator 282 for row 3.

The latch 324 (Fig. 13) for the auxiliary actuator 283 is rocked to ineffective position upon depression of a key in row 3. Howeve, the latch 3 23 remains effective to retain the auxiliary actuator in zero position. Inasmuch as there are no keys depressed in rows and 2, both the latches 32| (Fig. 12) and 322 remain effective to retain the auxiliary actuator 28| for row 2 in zero position. Upon operation of-the machine, the main actuator 282'for row 3 is stopped in its initial movement by the stud 269 (Figs. and 6) in the depressed key to position said main actuator to cause the complement (600) of the value of the depressed key to be subtracted from the item counting wheels.

EXAMPLE 4.-Item keys depressed in rows 1 and 2 The next problem to be analyzed is the depression of a key in each of rows and 2. Assuming that the 4 key has been depressed in each row, the complement of 44 is 956, and in this case the depressed key in row I stops the actuator at sixth position, the complement of 4, the auxiliary actuator for row 2 is coupled to the main actuator, and said auxiliary actuator in cooperation with the depressed 4 key stops the main actuator at 5, and the main actuator for row 3 is allowed to travel full distance to ninth position; thus we obtain the complement (956) of 44.

Depressing an item counting key in row (Figs. 5, 15, 16, 17 and 18) causes the control plate 215 for row I, to rock the extension 365 counter-clockwise .to cause the hook 359 to lift the rod 346 to move the latches 3|1, 3|9 and 320 for their respective main actuators 219, 280 `and 282 to ineffective positions. Counter-clockwisemovement of the extension 365 also rocks the latch 32| (Figs. 12 and 15) for the auxiliary actuator 28| for row 2 to ineffective position.

Depressinga key in row 2 rocks the extension 361 and the latch 322 (Figs. 12, 15 and 17) for the auxiliary actuator 28| to ineffective position. This freesthe auxiliary actuator 28| for movement and permits the arm 299 to be impelled clockwise by the spring 305 to engage the stud 30| with the notch in the block 303 to couple the auxiliary actuator 28| to its associated main actuator 280. Counter-clockwise movement of the extension 361 causes the projection 315 to rock the shaft 312 clockwise, which moves the links 368 and 369 downwardly and tensions springs 318 and 319. This tends to move the latches 3|6 and 3|8 to effective positions. However, studs 382 and 380, respectively, in the extensions 365 and 361 in cooperation with their respective slots in said latches retain said latches in ineffective positions.

It will be noted by referring to Figs. 5 and 12 that the auxiliary actuator 28| has corresponding graduated steps 383 for each of the graduated steps 358 on the main actuator 280. The graduated steps 383 are one step in advance of the steps 358 and when the auxiliary actuator is coupled to the main actuator the corresponding step 383 in cooperation with the stud 289 (Fig. 5) in the depressed key stops the main actuator 280 one step in advance of the complement of the depressed key, which with the 4 key depressed wouldbe position 5.

Inasmuch as no key is depressed in row 3, the latch 324 remains effectiveGgS. 13 and 15) to retain the auxiliary actuator 283 in zero position. The latch 323 for the auxiliary actuator 283 is rocked to ineffective position, however, this is merely incidental to this particular operation and will be explained later in connection with another problem. It is therefore evident that the main actuator for row is positioned by the depressed key in row to the complement thereof, that the main actuator for row 2 is positioned by the auxiliary actuator for row 2 one digit less than the complement of the depressed key and the main actuator for row 3 travels to position 8. Therefore, when 44 is set up on the item counting keys the complement 956 thereof is subtracted fromthe wheels ofthe item counting totalizer.

EXAMPLE 5.-Item keys depressed in rows 2 and 3 When a key is depressed in each of rows 2 and 3 of the item counting device it is necessary that the main actuator for row be retained in zero position, that the main actuator for row 2 be positioned at the complement of the depressed key, and that the main actuator for row 3 be positioned by the auxiliary actuator at a position corresponding to one digit less than the complement of the depressed key. For example, de-

pressing the 4 key in each of the rows 2 and 3, when it is desired to count 440 items in the item counting wheels, causes the main actuator for row to be retained in zero position, the main actuator for row 2 to be stopped in sixth position, and the main actuator for row 3 to be stopped in fifth position, to cause the complement (560) of 440 to be subtracted from the item counting wheels.

Depressing ar key in row 2 shifts 'the plate 215 y (Figs. 12, 15 and 17) forwardly to rock the extension 361 for the latch 322 counter-clockwise to cause the projection 315 thereof, in cooperation with the rod 314 to rock the shaft 312 clockwise, to cause the bell crank 310 (Fig. 16) to rock thelatch 3|6 to effective position to retain the main actuator 219 in zero position. This is nec- 

